(a)
Interpretation:
The product formed on reaction of the given reactant on bromination is to be stated. Whether the substituent in the given reactant is ortho, para directing or meta directing is to be stated.
Concept introduction:
Electrophilic substitution reactions are reactions in which electrophile, that are electron loving species get substituted on a benzene ring. The benzene ring should have an electron donating group that makes the ring nucleophilic, that is electron rich for the electrophile to attack.
(b)
Interpretation:
The product formed on reaction of the given reactant on bromination is to be stated. Whether the substituent in the given reactant is ortho, para directing or meta directing is to be stated.
Concept introduction:
Electrophilic substitution reactions are reactions in which electrophile, that are electron loving species get substituted on a benzene ring. The benzene ring should have an electron donating group that makes the ring nucleophilic, that is electron rich for the electrophile to attack.
(c)
Interpretation:
The product formed on reaction of the given reactant on bromination is to be stated. Whether the substituent in the given reactant is ortho, para directing or meta directing is to be stated.
Concept introduction:
Electrophilic substitution reactions are reactions in which electrophile, that are electron loving species get substituted on a benzene ring. The benzene ring should have an electron donating group that makes the ring nucleophilic, that is electron rich for the electrophile to attack.
(d)
Interpretation:
The product formed on reaction of the given reactant on bromination is to be stated. Whether the substituent in the given reactant is ortho, para directing or meta directing is to be stated.
Concept introduction:
Electrophilic substitution reactions are reactions in which electrophile, that are electron loving species get substituted on a benzene ring. The benzene ring should have an electron donating group that makes the ring nucleophilic, that is electron rich for the electrophile to attack.
(e)
Interpretation:
The product formed on reaction of the given reactant on bromination is to be stated. Whether the substituent in the given reactant is ortho, para directing or meta directing is to be stated.
Concept introduction:
Electrophilic substitution reactions are reactions in which electrophile, that are electron loving species get substituted on a benzene ring. The benzene ring should have an electron donating group that makes the ring nucleophilic, that is electron rich for the electrophile to attack.
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Chapter 16 Solutions
Organic Chemistry
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- The following equation shows the bromination of compound 1. Propose a structure for product D and a curved arrow mechanism that accounts for its formation featuring the initiation, propagation and termination steps. can you also discuss the stereochemical outcome.arrow_forwardThe ketone shown was prepared in a three-step sequence from ethyl trifluoroacetate. The first step in the sequence involved treating ethyl trifluoroacetate with ammonia to give compound A. Compound A was in turn converted to the desired ketone by way of compound B. Fill in the missing reagents in the sequence shown, and give the structures of compounds A and B.arrow_forwardDraw the structure of the desired dibromide product H. ) Propose a reasonable arrow-pushing mechanism for formation of the byproduct I.Use your mechanism to justify the stereochemistry in molecule Iarrow_forward
- Answer both questions below: Give the systematic names of the isomers A, B, C, & D and arrange the compounds A, B, C & D in order of increasing boiling point, commencing with the one having the lowest boiling point. Hence explain the physical basis of the order you gave. Draw a labelled energy profile for the hydrolysis of compound Aarrow_forwardOutline a synthesis for the following transformation and provide a justification for your chosen strategy. (More than one steps may be required)arrow_forwardDeduce the structure of compound C.arrow_forward
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